CN206268600U - Construction-engineering project life-cycle construction cost dynamic management system based on BIM technology - Google Patents
Construction-engineering project life-cycle construction cost dynamic management system based on BIM technology Download PDFInfo
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- CN206268600U CN206268600U CN201621349599.0U CN201621349599U CN206268600U CN 206268600 U CN206268600 U CN 206268600U CN 201621349599 U CN201621349599 U CN 201621349599U CN 206268600 U CN206268600 U CN 206268600U
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Abstract
The utility model discloses a kind of construction-engineering project life-cycle construction cost dynamic management system based on BIM technology, preceding base is provided with support frame, stepper motor, it is rotatably connected on the driving gear on preceding base, the tooth bar engaged with driving gear, conveying motor and the mounting platform for being fixed on tooth bar upper end, worm screw is provided with stepping motor rotating shaft, driving gear is coaxially fixed with the worm gear with worm engaging, tooth bar is slidably connected on support bar, mounting platform is made up of the front platform and rear platform being hinged, front platform, hydraulic cylinder is also hinged between rear platform, front platform, some fixed seats are equipped with rear platform, front platform, adjacent fixed seat is connected by connecting rod on rear platform;The fixed seat includes the column of more than two, and adjacent upright posts are connected by load-bearing roller bearing, and roller bearing end is provided with the motor-driven driven pulley of conveying;The base has rigid castors.The utility model simple structure, it is convenient and practical.
Description
Technical field
The utility model is related to a kind of construction-engineering project life-cycle construction cost based on BIM technology dynamically management system
System.
Background technology
BIM (BuildingInformationModeling, BIM) is with every phase of construction-engineering project
Information data is closed as the basis of model, the foundation of BUILDINGS MODELS is carried out, is had by digital information analogue simulation building
Real information.It has visualization, harmony, simulation, optimization property and the big feature of figure five can be gone out.Logistics and transport service are each
The environment that kind assets and personnel are continually changing brings difficulty to the situation for understanding building element in time, and to building element
Real-time monitoring is very easy to cause the wasting of resources and the low problem of operating efficiency.
Airduct installation is the pith in electromechanical pipeline installing engineering, and construction site management personnel are general according to design drawing
Paper, provides L-type airduct component that size will be made by airduct manufacturing firm and flange assembling is got on the bus feeding scene, site operation
Workman carries out secondary operation, the airduct that structure manufacture is shaped into a section.During actual installation, first scene positioning is stamped branch and is hung
Frame, then it is aided with scaffold, a section airduct is lifted to suspension and support by manpower is installed, complete movable Scaffold after one section of installation
To next infield, the overall airduct of the completion that repeats the above steps is installed, and this mounting means is that construction worker assembles and people
The mode that work lifting is combined, its airduct installation effectiveness is low.The device that we install in the urgent need to a kind of auxiliary airduct, to carry
Airduct installation effectiveness high.
Therefore, the relevant information set up a kind of high working efficiency and can whenever and wherever possible check building element is needed badly at present
Monitoring system, to improve the installation effectiveness of airduct.
Utility model content
The utility model is intended to provide a kind of dynamically management of construction-engineering project life-cycle construction cost based on BIM technology
System, to improve the installation effectiveness of airduct.
Base case:Dynamically management is the construction-engineering project life-cycle construction cost based on BIM technology in this programme
System, including base, rear base before structure identical, preceding base afterbody one end one end relative with rear base head are hinged, preceding bottom
Hydraulic cylinder is hinged between seat afterbody and rear base head, preceding base is provided with support frame, stepper motor, is rotatably connected on preceding bottom
Tooth bar that driving gear on seat is engaged with driving gear, the mounting platform for conveying motor and being fixed on tooth bar upper end, stepping electricity
Worm screw is provided with machine rotating shaft, driving gear is coaxially fixed with the worm gear with worm engaging, and tooth bar is slidably connected on support bar,
Mounting platform is made up of the front platform and rear platform being hinged, and hydraulic cylinder is also hinged between front platform, rear platform, preceding flat
Some fixed seats are equipped with platform, rear platform, adjacent fixed seat is connected by connecting rod on front platform, rear platform;The fixation
Seat includes the column of more than two, and adjacent upright posts are connected by load-bearing roller bearing, roller bearing end be provided with convey it is motor-driven from
Dynamic belt pulley;The base has rigid castors.
More piece finished product airduct is sequentially placed on load-bearing roller bearing during installation, is corrected after running to construction specified location,
Then it is sequentially connected each section airduct with bolt;Especially in face of bending airduct install when, can using hydraulic cylinder to preceding base,
Angle adjustment is carried out between rear base, so as to realize that the airduct of bending is installed, this process is all completed on ground, reduces work people
Member's work high above the ground time, construction risk is reduced, arrived assembled good more piece airduct jacking using the setting of driving tooth wheel and rack
Predetermined setting height(from bottom) is installed;Airduct is fixed finally by suspension and support, that is, completes to be installed while more piece airduct.
Beneficial effect:
1st, the utility model simple structure, is easy to implement;
2nd, it is safe:By the auto-lock function of worm and gear, it is to avoid the falling of mounting platform, security is improve;
3rd, the lifting of airduct is realized by mounting platform, airduct is lifted to suspension and support without manpower is installed, saved
Labour, improves installation effectiveness;
4th, connected by load-bearing roller bearing using in adjacent upright posts, during installation, airduct is placed on load-bearing roller bearing, be easy to airduct
Connection between airduct,
5th, load-bearing roller bearing can be driven to rotate while conveying motor, load-bearing roller bearing has rotation feeding function, convenient to wind
Pipe is conveyed;
6th, rigid castors are had in base, in order to the movement and fixation of whole airduct mounting platform.
Preferred scheme one, used as the further optimization to base case, the base is provided with go-cart handrail handle.
Preferred scheme two, used as the further optimization to base case, the mounting platform is circumferentially provided with guardrail.
Preferred scheme three, as the further optimization to preferred scheme two, is hinged with telescopic staircase on guardrail.
Preferred scheme four, as the further optimization to base case, is additionally provided with temperature sensor on mounting platform.
Brief description of the drawings
Fig. 1 is the schematic diagram of the utility model embodiment.
Specific embodiment
The utility model is described in further detail below by specific embodiment:
Reference in Figure of description includes:Preceding base 10, conveying motor 11, stepper motor 12, load-bearing roller bearing 13,
Column 14, tooth bar 15, rear base 20.
Embodiment is substantially as shown in Figure 1:Dynamically management is construction-engineering project life-cycle construction cost based on BIM technology
System, including base 10, rear base 20 before structure identical, the afterbody one end of preceding base 10 one end hinge relative with the head of rear base 20
Connect, hydraulic cylinder is hinged between the afterbody of preceding base 10 and the head of rear base 20, preceding base 10 is provided with support frame, stepper motor
12nd, tooth bar 15 that the driving gear being rotatably connected on preceding base 10 is engaged with driving gear, conveying motor 11 and it is fixed on tooth
The mounting platform of the upper end of bar 15, is provided with worm screw in the rotating shaft of stepper motor 12, driving gear is coaxially fixed with and worm engaging
Worm gear, tooth bar 15 is slidably connected on support bar, and mounting platform is made up of the front platform and rear platform being hinged, front platform,
Hydraulic cylinder is also hinged between rear platform, some fixed seats are equipped with front platform, rear platform, it is adjacent on front platform, rear platform
Fixed seat is connected by connecting rod;The fixed seat includes the column 14 of more than two, and adjacent upright posts 14 pass through load-bearing roller bearing 13
Connection, roller bearing end is provided with the driven pulley that conveying motor 11 drives;The base has rigid castors.
More piece finished product airduct is sequentially placed on load-bearing roller bearing 13 during installation, school is carried out after running to construction specified location
Just, then it is sequentially connected each section airduct with bolt;When especially the airduct in face of bending is installed, can be using hydraulic cylinder to preceding bottom
Angle adjustment is carried out between seat 10, rear base 20, so as to realize that the airduct of bending is installed, this process is all completed on ground, is subtracted
Few staff's work high above the ground time, construction risk is reduced, using the setting of driving tooth wheel and rack 15 by assembled good more piece
Airduct jacking is installed to predetermined setting height(from bottom);Airduct is fixed finally by suspension and support, that is, completes more piece airduct
Install simultaneously.
Beneficial effect:
7th, the utility model simple structure, is easy to implement;
8th, it is safe:By the auto-lock function of worm and gear, it is to avoid the falling of mounting platform, security is improve;
9th, the lifting of airduct is realized by mounting platform, airduct is lifted to suspension and support without manpower is installed, saved
Labour, improves installation effectiveness;
10th, connected by load-bearing roller bearing 13 using in adjacent upright posts 14, during installation, airduct be placed on load-bearing roller bearing 13,
It is easy to the connection between airduct and airduct,
11st, load-bearing roller bearing 13 can be driven to rotate while conveying motor 11, load-bearing roller bearing 13 has rotation feeding function, side
Just airduct is conveyed;
12nd, rigid castors are had in base, in order to the movement and fixation of whole airduct mounting platform.
Base is provided with go-cart handrail handle.Mounting platform is circumferentially provided with guardrail.Telescopic staircase is hinged with guardrail.
Temperature sensor is additionally provided with mounting platform.
The utility model is combined with BIM technology, and the airduct operation for meeting site operation specification prefabricated in advance installs flat
Platform, changes the form that traditional single-unit airduct is installed, and also can guarantee that operating personnel has enough installation and operation skies during work high above the ground
Between, improve operating efficiency.Concretely comprise the following steps:
1)Three-dimensional modeling is carried out to project electromechanical pipeline using Revit softwares;
2)Arrangement spatially is carried out to pipelines such as wind, water, electricity, and the collision detection function of being carried using Reivt softwares
Detected, until collision result is zero;
3)Secondary detailingi is carried out to model, according to live practice of construction environment and layout design functional requirement, adjustment
Pipeline enclosure away from and distributing order, and using Magicad software installation suppot hanger of duct models and Force Calculation is carried out, while to accord with
Close practice of construction code requirement;
4)Airduct model in model is individually isolated, and straight-tube portion is carried out according to 1200mm on airduct model
Length is then added the preceding paragraph 1200mm airducts or stayed and does articulation by equidistant segmentation, the remaining part less than 1200mm, is more than
Parts of the 1200mm less than 1500mm is then separated separately as a standard element, wherein airduct pipe fitting and airduct annex
Separately as a component;Component and installation region are numbered according to assembling sequence, are exported prefabricated manuscript and material is clear
It is single to give airduct producting factory;
5)Site operation workman will assemble the airduct component for transporting and carry out assembly, be assembled into finished product airduct;
6)According to segmentation airduct size, carry out modeling using Revit softwares and put, it is determined that the wind based on BIM technology
Pipe mounting platform size, should ensure on platform to be capable of the airduct component of assembled plural number successively, and overall light of platform is ensured again
Just with flexible mobility energy;Make airduct mounting platform;
7)More piece finished product airduct is sequentially placed on load-bearing roller bearing 13 during installation, school is carried out after running to construction specified location
Just, then it is sequentially connected each section airduct with bolt;When especially the airduct in face of bending is installed, can be using hydraulic cylinder to preceding bottom
Angle adjustment is carried out between seat 10, rear base 20, so as to realize that the airduct of bending is installed, this process is all completed on ground, is subtracted
Few staff's work high above the ground time, construction risk is reduced, using the setting of driving tooth wheel and rack 15 by assembled good more piece
Airduct jacking is installed to predetermined setting height(from bottom);Airduct is fixed finally by suspension and support, that is, completes more piece airduct
Install simultaneously.
Above-described is only embodiment of the present utility model, and the general knowledge such as known concrete structure and characteristic is herein in scheme
Excessive description is not made.It should be pointed out that for a person skilled in the art, not departing from the premise of the utility model structure
Under, some deformations and improvement can also be made, these should also be considered as protection domain of the present utility model, and these are all without influence
Effect and practical applicability that the utility model is implemented.This application claims protection domain should be with the content of its claim
It is defined, specific embodiment in specification etc. records the content that can be used for explaining claim.
Claims (5)
1. the construction-engineering project life-cycle construction cost dynamic management system of BIM technology is based on, it is characterised in that including structure
Base, rear base before identical, preceding base afterbody one end one end relative with rear base head are hinged, preceding base afterbody and rear bottom
Hydraulic cylinder is hinged between seat head, preceding base is provided with support frame, stepper motor, the driving tooth being rotatably connected on preceding base
The tooth bar engaged with driving gear, the mounting platform for conveying motor and being fixed on tooth bar upper end are taken turns, is set on stepping motor rotating shaft
There is worm screw, driving gear is coaxially fixed with the worm gear with worm engaging, and tooth bar is slidably connected on support bar, and mounting platform is by phase
Front platform and the rear platform composition being mutually hinged, are also hinged with hydraulic cylinder, on front platform, rear platform between front platform, rear platform
Some fixed seats are provided with, adjacent fixed seat is connected by connecting rod on front platform, rear platform;The fixed seat includes more than two
Column, adjacent upright posts are connected by load-bearing roller bearing, and roller bearing end is provided with the motor-driven driven pulley of conveying;The bottom
Seat has rigid castors.
2. the construction-engineering project life-cycle construction cost dynamic management system based on BIM technology according to claim 1,
Characterized in that, the base is provided with go-cart handrail handle.
3. the construction-engineering project life-cycle construction cost dynamic management system based on BIM technology according to claim 1,
Characterized in that, the mounting platform is circumferentially provided with guardrail.
4. the construction-engineering project life-cycle construction cost dynamic management system based on BIM technology according to claim 3,
Characterized in that, being hinged with telescopic staircase on guardrail.
5. the construction-engineering project life-cycle construction cost dynamic management system based on BIM technology according to claim 1,
Characterized in that, being additionally provided with temperature sensor on mounting platform.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621349599.0U CN206268600U (en) | 2016-12-09 | 2016-12-09 | Construction-engineering project life-cycle construction cost dynamic management system based on BIM technology |
Applications Claiming Priority (1)
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CN201621349599.0U CN206268600U (en) | 2016-12-09 | 2016-12-09 | Construction-engineering project life-cycle construction cost dynamic management system based on BIM technology |
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CN206268600U true CN206268600U (en) | 2017-06-20 |
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CN201621349599.0U Expired - Fee Related CN206268600U (en) | 2016-12-09 | 2016-12-09 | Construction-engineering project life-cycle construction cost dynamic management system based on BIM technology |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107826600A (en) * | 2017-10-23 | 2018-03-23 | 中投(天津)热力股份有限公司 | One kind uprises pipeline transmission pipe support |
CN107842667A (en) * | 2017-09-30 | 2018-03-27 | 中国化学工程第六建设有限公司 | A kind of piping once forming method of Leak-tight liner pipeline |
CN109230310A (en) * | 2018-08-21 | 2019-01-18 | 国网山东省电力公司济南市历城区供电公司 | A kind of power equipment transport device |
CN113044772A (en) * | 2021-03-11 | 2021-06-29 | 朱文彬 | Machining auxiliary platform with quick lifting function |
-
2016
- 2016-12-09 CN CN201621349599.0U patent/CN206268600U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107842667A (en) * | 2017-09-30 | 2018-03-27 | 中国化学工程第六建设有限公司 | A kind of piping once forming method of Leak-tight liner pipeline |
CN107826600A (en) * | 2017-10-23 | 2018-03-23 | 中投(天津)热力股份有限公司 | One kind uprises pipeline transmission pipe support |
CN109230310A (en) * | 2018-08-21 | 2019-01-18 | 国网山东省电力公司济南市历城区供电公司 | A kind of power equipment transport device |
CN113044772A (en) * | 2021-03-11 | 2021-06-29 | 朱文彬 | Machining auxiliary platform with quick lifting function |
CN113044772B (en) * | 2021-03-11 | 2022-12-06 | 国网辽宁省电力有限公司葫芦岛供电公司 | Machining auxiliary platform with quick lifting function |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170620 Termination date: 20211209 |
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CF01 | Termination of patent right due to non-payment of annual fee |